WO2009124191A2 - Passive over/under voltage control and protection for energy storage devices associated with energy harvesting - Google Patents
Passive over/under voltage control and protection for energy storage devices associated with energy harvesting Download PDFInfo
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- WO2009124191A2 WO2009124191A2 PCT/US2009/039304 US2009039304W WO2009124191A2 WO 2009124191 A2 WO2009124191 A2 WO 2009124191A2 US 2009039304 W US2009039304 W US 2009039304W WO 2009124191 A2 WO2009124191 A2 WO 2009124191A2
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- circuit
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- voltage
- energy storage
- energy
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
- H02J7/0031—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits using battery or load disconnect circuits
- H02J7/0032—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits using battery or load disconnect circuits disconnection of loads if battery is not under charge, e.g. in vehicle if engine is not running
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
- H02J7/00308—Overvoltage protection
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/02—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from ac mains by converters
- H02J7/04—Regulation of charging current or voltage
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
- H02J7/00302—Overcharge protection
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0029—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with safety or protection devices or circuits
- H02J7/00306—Overdischarge protection
Definitions
- This invention relates to, for example, an apparatus, method, and system for safely utilizing a rechargeable energy device.
- Some energy storage devices such as, for example, thin-film solid electrolyte batteries or capacitors may be susceptible to damage when exposed to continuous or momentary influxes of high charging voltages. Batteries may, for example, be damaged if discharged beyond their design parameters.
- Over-charge protection relates to a condition when a relative large voltage is allowed at the input to a battery cell or capacitor for an any time period.
- device protection circuits may be used to monitor the current and voltage and inhibit battery charge when overcharge is sensed.
- the current available art may generally require power consumption from the device to be charged for the over-charge circuitry. That is, the existing art may involve circuits using quiescent current from the battery or capacitor to be charged. Also, current known art may involve switching to disable the charging source when an overcharge condition exists despite the absence of a charging source or similar energy being present.
- Other known over voltage control circuits use voltage regulation schemes that clamp input power to a known voltage prior to input to the energy storage device to be charged. These may use a significant amount of power either from the rechargeable device or from input power to the system. These mechanisms may not be ideal because, for example, they increase the amounts of leakage current taken from the battery or capacitor to be charged or use input energy that may be otherwise allowed into the rechargeable energy storage device.
- harvested energy may, for example, be used instantaneously or stored in an energy storage device such as a capacitor or a thin- film battery directly, with no active voltage control necessarily required, and used at defined time intervals or when certain environmental conditions exist, such as when a request by an attached or a remotely connected device is received.
- an energy storage device such as a capacitor or a thin- film battery directly
- an energy harvester such as, for example, a piezoelectric mechanism or an energy-absorbing antenna
- an energy storage device such as a capacitor or battery.
- Another object of an embodiment of this invention relates to, for example, a device which may be used to recharge energy storage devices without subjecting the device to potentially damaging over-charge or under-voltage conditions while using minimal power from the rechargeable device and taking minimal power from the available charge energy. This may, for example, allow maximum usage of available input power to the rechargeable device.
- the over-charge and/or under-voltage circuitry may be especially useful in recharging the batteries in a safe manner. This may be particularly important, for example, in applications where energy storage devices are located in remote areas that require high reliability — the energy-harvesting system described above may recharge the energy storage devices and the over-charge and/or over-discharge circuitry may ensure that the energy storage device is not damaged by the excess and/or inadequate conditions of the charging voltage or load demand.
- Certain embodiments of the present invention may, for example, limit power usage from the energy storage device to be charged by monitoring voltage levels when a charging source energy is present.
- a power dissipation circuit may, for example, be switched on in the event that a) charging energy is present, and b) the level of the energy present from the input charge device is greater than a predetermined safe level for the device to be charged.
- a further benefit of this invention may be that very small energy sources may, for example, preferably be safely connected to this circuit without the need of any voltage regulation because regulation may, for example, be applied via this circuit only in the event of possible over charge voltage conditions as seen at the rechargeable device, and only when charge energy is present.
- the monitor and power dissipation circuitry in this invention can, for example, be powered solely by charging energy. If charging energy is not available, then only very minute amounts of leakage current may be taken from the energy storage device. Furthermore, only very small amounts of charge energy may be used to determine if an over voltage condition exists.
- the power dissipation circuit may be switched on, for example, when an over-voltage condition exists.
- the existence of such condition is determined, for example, when a) charging energy is present, and b) the voltage level of the energy present from the input charge device is greater than a predetermined safe level for the device to be charged.
- the protection circuit may return to a quiescent state. Because over-voltage can, for example, preferably be monitored within this circuitry, maximum voltage regulation does not have to be provided via the charge energy source. This power may, for example, be dissipated by the power dissipation circuitry.
- Trace energy gathering may slowly build to an overcharge condition over time.
- it may be critical to use all available energy without the power consumption of constant regulation.
- Certain embodiments of this invention may be different than the prior art in that, for example, voltage regulation may not, in those embodiments, occur unless an overcharge condition can exist at the rechargeable energy storage device, and only when recharge energy is present.
- Figure 1 is a block diagram of an exemplary embodiment of a passive battery or capacitor over voltage control and protection circuit.
- Figure Ia is a schematic diagram of an exemplary embodiment of a blocking circuit.
- Figure 2 is a schematic diagram of an exemplary embodiment of a voltage monitor circuit.
- Figure 3 is a schematic diagram of an exemplary embodiment of another voltage monitor circuit.
- Figure 4 is a schematic diagram of an exemplary embodiment of another voltage monitor circuit.
- Figure 5 is a schematic diagram of an exemplary embodiment of a shunt regulator power dissipation option.
- Figure 6 is a schematic diagram of an exemplary embodiment of another shunt regulator power dissipation option.
- Figure 7 is a block diagram of an exemplary embodiment of using multiple charge sources in parallel.
- Figure 8 is a block diagram of an exemplary embodiment of using multiple charge sources in series.
- Figure 9 is a block diagram of an exemplary embodiment of charging multiple batteries, battery cells, or capacitors in parallel.
- Figure 10 is a block diagram of an exemplary embodiment of charging multiple batteries, battery cells, or capacitors in series.
- Figure 11 is a circuit diagram of an exemplary embodiment of an under- voltage protection circuit.
- a reference to “a step” or “a means” is a reference to one or more steps or means and may include sub-steps and subservient means. All conjunctions used are to be understood in the most inclusive sense possible. Thus, the word “or” should be understood as having the definition of a logical “or” rather than that of a logical “exclusive or” unless the context clearly necessitates otherwise. Structures described herein are to be understood also to refer to functional equivalents of such structures. Language that may be construed to express approximation should be so understood unless the context clearly dictates otherwise.
- FIG. 1 is a block diagram of an exemplary embodiment of a passive battery or capacitor over voltage control and protection circuit.
- an input charge device 105 may be coupled to an impedance matching capacitor 104.
- the input charge device 105 may be, for example, a piezo electric source coupled to a rectifier and filter such that pulse energy is obtained via vibration, flexing, or impact events and generate a voltage across capacitor 104.
- Impedance matching capacitor(s) 104 of certain of these embodiments are application specific and can be chosen for the charge source.
- Voltage Monitor Circuit 100 and Blocking Circuit 101 may be connected to the same input node 107.
- the battery or capacitor or other energy storage device to be charged 106 may be connected to the output node 108 of the Blocking Circuit 101.
- a Shunt Power Dissipation Circuit 102 may be connected to the energy storage device 106 while the output Shunt Power Dissipation Circuit 102 may be connected to node 109.
- node 109 is connected to ground, but in other embodiments, node 109 may be connected to other items, such as an energy storage device.
- Dissipation Circuit 102 may also be connected to the output node of Voltage Monitor Circuit 100. In this configuration, a signal from Voltage Monitor Circuit 100 may, for example, cause Shunt Power Dissipation Circuit 102 to operate.
- an input charge device 105 may be an energy harvesting mechanism based on a radio frequency energy transducer or a device that can convert solar power, wind power, vibration, pedestrian activity such as walking or jogging, water movement, temperature variations, magnetic fields, or rotational movements into usable energy such as electricity. Additionally, input charge device 105 may also include a voltage boost converter. [0039] In addition to a battery or capacitor, an energy storage device 106 may also be a mechanical energy storage device, such as, for example, a flywheel, micro-flywheel, micro electro-mechanical system (MEMS), or a mechanical spring.
- MEMS micro electro-mechanical system
- the energy storage component may also be a thermal energy storage device, such as a thermal mass container, or it could be a chemical energy storage device, such as, for example, a hydrogen generator with hydrogen container or an ozone generator with ozone container. Each one of these devices may be used to store energy based on exemplary elements of the system.
- FIG. Ia is a schematic diagram of an exemplary embodiment of a blocking circuit.
- a Schottky Diode 110 may be used as the blocking circuit to prevent current flow from the device to be charged 106 to the Voltage Monitor Circuit 100.
- other mechanisms may also be used as blocking circuits, such as, for example, an active semiconductor device, such as, for example, a MOSFET switch and control circuitry, a relay, or a Micro Electro Mechanical Switch.
- a Schottky Diode may be a preferable component due to simplicity in design and its very low forward voltage drop, resulting preferably in increased charge efficiency.
- the energy seen at impedance matching capacitor 104 may cause current to flow into the energy storage device 106. In many cases, particularly with low energy input charge devices, this energy may not energize the Power Dissipation Circuit 102 because, due to the current draw of the energy storage device, the voltage seen at input node 107 may be only slightly above the voltage on the battery or capacitor 106. As the energy storage device 106 becomes fully charged, its voltage, as seen at node 108, may rise and reach a predetermined level. This predetermined level may be related to the safe fully charged level of the energy storage device.
- the predetermined level of a fully-charged thin film battery may be 4.10V.
- subsequent charge pulses developed by the input charge device may raise the voltage at node 107 to a level greater than the predetermined charge level, and the Power Dissipation Circuit 102 can, for example, turn on and dissipate the charge pulse out through node 109.
- low current is generated by the input charge device
- charge sources 105 including but not limited to DC source in either voltage or current mode, rectified AC source in either voltage or current mode, piezo electric source, peltier source, fuel cell source, solar source in either voltage or current mode, RF source, inductive source, magnetic source and radio isotope (active) to electric conversion source.
- an energy load (not shown) may be connected to node 108 and powered directly from the energy storage device 106. In other embodiments, an energy load may be connected to node 107 and powered directly from input charge device 105. In yet other embodiments, an energy load may be connected to the output of Power
- Dissipation Circuit 102 Whether the energy load is connected to one or more of these loads may depend on the anticipated parameters of the energy supplied by the input charge device 105 as well as the sensitivity of the energy load.
- one or more of many sorts of sensors may be powered by the energy storage device connected to the protection circuit, thereby serving as the energy load and creating a system for sensing one or more parameters.
- Some embodiments may also include communication circuitry and one or more antennas that may allow the system to communicate.
- the system when combined with an energy harvesting device (collecting ambient energy), the system may serve as an autonomous powered wireless communication system.
- These systems may for example include a plurality of transmitting and/or receiving (or having both capabilities) devices. These systems may be used, for example, as a wireless signal listening device, tuned to a plurality of frequencies, and collecting transmitted information and/or performing a function, such as, for example, transmitting a signal, based on certain information that is received.
- the system when having other types of sensors, may function as wireless sensors and communicate data that is measured by the sensor.
- the system may also be used, for example, as a wireless receiver component to an autonomous electrical circuit which, upon receiving a wireless command signal, performs a function.
- some or all of the elements of the passive power management unit, the input charge device, and the energy storage device are all formed on a single substrate such as, for example, a flexible circuit board or semiconductor chip.
- the energy storage device is a rechargeable device, such as, for example, a thin-film battery or capacitor
- the present invention may be capable of performing nearly indefinitely.
- the present invention may, for example, allow for energy created through radio frequency, wind power, solar power, vibration, human activity, water movement, temperature variations and rotational movements to be harvested in an energy harvesting mechanism and for that harvested energy to ensure that the rechargeable energy storage device may be so charged.
- Figure 2 is a schematic diagram of an exemplary embodiment of a voltage monitoring circuit.
- the monitoring circuit 200 can be, for example, a series of precision low current shunt voltage references 202 with a high impedance amplifier 204 to provide isolation, powered solely by the input charge energy source, isolating the reference current until sufficient energy is available from the input charge device.
- Device 204 may be a high impedance, low quiescent current operational amplifier that is powered via the same line as its non-inverting input. This exemplary device may not use power unless the power is available via the input line 210 or when charging power is available. The usage of operational amplifiers this way in this exemplary embodiment may help to achieve desired low power operations because if there is no charge energy from the input charge device, there may be no quiescent current usage by the voltage monitor circuit.
- Device 208 which operates when device 204 is operating, can be another operational amplifier that functions as a comparator. Device 208 can be powered by the same line as its non-inverting input. Diodes 202 can be, for example, "off the shelf 1.25V shunt references. Optionally, voltage divider resistors 206 and 207 can be used to ensure voltage at the non-inverting input of device 208 is preferably within a predetermined limit for maximum voltage.
- FIG 3 is a schematic diagram of an exemplary embodiment of another voltage monitor circuit.
- a voltage monitor circuit 300 may include, for example, only one precision low current shunt voltage reference 302, voltage divider resistors 306 and 307, a high impedance amplifier 304 to provide isolation, powered solely by the input charge energy source, isolating the reference current until the energy storage device (not shown) is charged and/or sufficient energy is available from the input charge device (not shown).
- Figure 4 is a schematic diagram of an exemplary embodiment of another voltage monitor circuit. It illustrates a particular single chip solution for voltage monitor.
- the chip can be a semiconductor 402, powered solely by the input charge energy source, isolating the reference current until sufficient energy is available from the input charge device.
- a semiconductor 402 powered solely by the input charge energy source, isolating the reference current until sufficient energy is available from the input charge device.
- One example of such semiconductor chip may be a Seiko S-1000 voltage detector, which has extremely low quiescent current, and a fixed detection voltage value.
- FIG. 5 is a schematic diagram of an exemplary embodiment of a shunt power dissipation circuit 500.
- circuit 500 may contain a power dissipation circuit switch 516 made from a pair of field effect transistors (FETs) 502 and 504 with a forward bias resistor 506.
- FETs field effect transistors
- Circuit 500 also contains a shunt voltage reference circuit 508.
- the shunt voltage reference circuit 508 may contain an adjustable zener diode shunt load 511 through two resistors 512 and 514.
- Circuit 500 can be powered solely by an input charge energy source (not shown) as seen through a voltage monitor circuit (not shown) and connected to input node 510, thereby isolating the power dissipation circuit 500 until sufficient energy is available from the input charge device and an over voltage condition exists.
- a voltage monitor may operate the power dissipation circuit switch 516 to drain the excess energy from the energy storage device (connected to Vbat) to shunt voltage reference circuit.
- FIG. 6 is a schematic diagram of an exemplary embodiment of another shunt regulator power dissipation circuit 600.
- a power dissipation circuit switch device 612 may contain dual FET switches 602 and 604 and forward bias resistor 506, similar to the one shown in Figure 5.
- circuit 600 may contain only a simple resistive load 608.
- Circuit 600 may be powered solely by the input charge energy source (not shown) as seen through a voltage monitor circuit (not shown) and connected to input node 610, thereby isolating the power dissipation circuit 600 until sufficient energy is available from the input charge device and an over voltage condition exists.
- the voltage monitor circuit which can be connected to the input 610 can maintain its reference voltage and switch the power dissipation circuit 600 "on” and “off as required.
- the reference voltage can be maintained through the determination of whether a charge pulse is developed and causes the voltage to rise past the predetermined charge level.
- Figures 5 and 6 illustrate certain exemplary options for power dissipation circuit switch devices and power dissipation circuits containing discrete devices.
- Other examples of power dissipation circuit switching device may include circuits using one or a more of a bipolar transistor, field effect transistor, relay, Micro Electro Mechanical Switch (MEMS) relay, or semiconductor circuit.
- MEMS Micro Electro Mechanical Switch
- Examples of other shunt power dissipation circuits may include, for example, the use of a semiconductor circuit. All these examples may, for example, be powered solely by the input charge energy source, isolating the power dissipation circuit until excess energy is entering from the input charge device and an over voltage condition exists for the energy storage device.
- Circuits shown as separate entities above may also be combined into a single chip solution by using a combined semiconductor circuit.
- a voltage monitor circuit and a power dissipation circuit can be combined into a semiconductor circuit.
- a voltage monitor circuit, a blocking circuit, and a power dissipation circuit may also be combined into a semiconductor circuit.
- Such a configuration may, for example, have as few as three external connections: an input connect to the input charge device, and output to connect to the energy storage device, and a drain to connect to ground or a device that can use or collect the excess energy.
- a single combined semiconductor circuit may also include circuits that are not shown in any previously illustrated exemplary embodiments.
- a semiconductor circuit may also include a combination of a rectification circuit for conversion of AC charge input to DC, a voltage boost converter, and a voltage boost converter that has no upper voltage regulation requirement. All such combined semiconductor circuits may be powered solely by the input charge energy source, isolating the power dissipation circuit until sufficient energy is available from the input charge device and an over voltage condition exists.
- the present invention applies not only to one input charge device and one battery or capacitor to be charged, as shown in Figure 1 (105 and 106), but also may be applied to multiple input charge devices in series or parallel and multiple batteries or capacitors to be charged in series or parallel.
- Figure 7 shows a block diagram of an exemplary embodiment for using multiple input charge devices in parallel.
- multiple input charge devices 702 are coupled in parallel to serve as a single input source for both a blocking circuit and a voltage monitor circuit. All input charge devices may further be connected to the same impedance matching capacitor 704. Note that the multiple input charge devices 702 are not necessarily the same type of device, as, in certain applications, it may be beneficial to obtain energy through a variety of methods.
- Figure 8 shows a block diagram of an exemplary embodiment depicting the use of multiple input charge devices in series.
- multiple input charge devices 802 can be serially connected to serve as a single input source for both blocking circuit and voltage monitor circuit.
- Each input charge device can be coupled to, for example, a corresponding impedance matching capacitor 804.
- multiple input charge devices 802 are not necessarily the same type of device, as, in certain applications, it may be beneficial to obtain energy through a variety of methods.
- Figure 9 shows a block diagram of an exemplary embodiment for charging multiple batteries, battery cells, or capacitors in parallel. In Figure 9, multiple batteries or capacitors to be charged 902 can be coupled in parallel to the output of a single blocking circuit 904.
- FIG 10 shows a block diagram of an exemplary embodiment of charging multiple batteries, battery cells, or capacitors in series.
- multiple batteries or capacitors to be charged 1002 can be serially connected to the outputs of multiple blocking circuits 1004.
- Each individual battery or capacitor to be charged may be, for example, coupled to its corresponding blocking circuit. Voltage can be controlled for each battery or capacitor to be charged individually through the corresponding blocking circuit, which also has a corresponding power dissipation circuit.
- FIG. 11 shows a circuit diagram of an optional under- voltage protection circuit 1100. If connected, the input terminal is connected to node 108 while the output terminal would be connected to an electronic user circuit (not shown).
- the under- voltage protection circuit operates by monitoring the voltage at node 108 and, when it falls below the minimum predetermined under- voltage level, the electronic user circuit is disconnected from the energy storage device by a switching circuit (not shown).
- circuit 1100 operates to reconnect the energy storage device to the electronic user circuit.
- a predetermined low- voltage level is generally specific to the type of energy storage device used. For example, a thin film battery may have a save operating range above 2.0V and the predetermined voltage level may therefore be set to 2.5V.
Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP09726723.1A EP2266183B1 (en) | 2008-04-02 | 2009-04-02 | Passive over/under voltage control and protection for energy storage devices associated with energy harvesting |
JP2011503174A JP5595377B2 (en) | 2008-04-02 | 2009-04-02 | Control and protection of passive over and under voltage for energy storage devices associated with energy intake |
CN200980112400.9A CN101983469B (en) | 2008-04-02 | 2009-04-02 | Passive over/under voltage control and protection for energy storage devices associated with energy harvesting |
KR1020107022786A KR101672254B1 (en) | 2008-04-02 | 2009-04-02 | Passive over/under voltage control and protection for energy storage devices associated with energy harvesting |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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US4184108P | 2008-04-02 | 2008-04-02 | |
US61/041,841 | 2008-04-02 | ||
US10374608P | 2008-10-08 | 2008-10-08 | |
US61/103,746 | 2008-10-08 |
Publications (2)
Publication Number | Publication Date |
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WO2009124191A2 true WO2009124191A2 (en) | 2009-10-08 |
WO2009124191A3 WO2009124191A3 (en) | 2010-01-07 |
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PCT/US2009/039304 WO2009124191A2 (en) | 2008-04-02 | 2009-04-02 | Passive over/under voltage control and protection for energy storage devices associated with energy harvesting |
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Country | Link |
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US (1) | US8350519B2 (en) |
EP (1) | EP2266183B1 (en) |
JP (1) | JP5595377B2 (en) |
KR (1) | KR101672254B1 (en) |
CN (1) | CN101983469B (en) |
WO (1) | WO2009124191A2 (en) |
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Also Published As
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US8350519B2 (en) | 2013-01-08 |
KR20100130627A (en) | 2010-12-13 |
JP2011520409A (en) | 2011-07-14 |
CN101983469A (en) | 2011-03-02 |
CN101983469B (en) | 2014-06-04 |
EP2266183A2 (en) | 2010-12-29 |
KR101672254B1 (en) | 2016-11-08 |
EP2266183B1 (en) | 2018-12-12 |
US20090251099A1 (en) | 2009-10-08 |
WO2009124191A3 (en) | 2010-01-07 |
JP5595377B2 (en) | 2014-09-24 |
EP2266183A4 (en) | 2012-02-22 |
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